#include <stdint.h>
#include <86box/86box.h>
#include "cpu.h"
#include <86box/mem.h>
#include <86box/plat_unused.h>

#include "x86.h"
#include "x86seg_common.h"
#include "x86seg.h"
#include "386_common.h"
#include "x86_flags.h"
#include "codegen.h"
#include "codegen_backend.h"
#include "codegen_ir.h"
#include "codegen_ops.h"
#include "codegen_ops_helpers.h"
#include "codegen_ops_mov.h"

static int
NF_SET_01(void)
{
    return NF_SET() ? 1 : 0;
}
static int
VF_SET_01(void)
{
    return VF_SET() ? 1 : 0;
}

static int
ropJO_common(UNUSED(codeblock_t *block), ir_data_t *ir, uint32_t dest_addr, UNUSED(uint32_t next_pc))
{
    int jump_uop;

    switch (codegen_flags_changed ? cpu_state.flags_op : FLAGS_UNKNOWN) {
        case FLAGS_ZN8:
        case FLAGS_ZN16:
        case FLAGS_ZN32:
            /*Overflow is always zero*/
            return 0;

        case FLAGS_SUB8:
        case FLAGS_DEC8:
            jump_uop = uop_CMP_JNO_DEST(ir, IREG_flags_op1_B, IREG_flags_op2_B);
            break;

        case FLAGS_SUB16:
        case FLAGS_DEC16:
            jump_uop = uop_CMP_JNO_DEST(ir, IREG_flags_op1_W, IREG_flags_op2_W);
            break;

        case FLAGS_SUB32:
        case FLAGS_DEC32:
            jump_uop = uop_CMP_JNO_DEST(ir, IREG_flags_op1, IREG_flags_op2);
            break;

        case FLAGS_UNKNOWN:
        default:
            uop_CALL_FUNC_RESULT(ir, IREG_temp0, VF_SET);
            jump_uop = uop_CMP_IMM_JZ_DEST(ir, IREG_temp0, 0);
            break;
    }
    uop_MOV_IMM(ir, IREG_pc, dest_addr);
    uop_JMP(ir, codegen_exit_rout);
    uop_set_jump_dest(ir, jump_uop);
    return 0;
}
static int
ropJNO_common(UNUSED(codeblock_t *block), ir_data_t *ir, uint32_t dest_addr, UNUSED(uint32_t next_pc))
{
    int jump_uop;

    switch (codegen_flags_changed ? cpu_state.flags_op : FLAGS_UNKNOWN) {
        case FLAGS_ZN8:
        case FLAGS_ZN16:
        case FLAGS_ZN32:
            /*Overflow is always zero*/
            uop_MOV_IMM(ir, IREG_pc, dest_addr);
            uop_JMP(ir, codegen_exit_rout);
            return 0;

        case FLAGS_SUB8:
        case FLAGS_DEC8:
            jump_uop = uop_CMP_JO_DEST(ir, IREG_flags_op1_B, IREG_flags_op2_B);
            break;

        case FLAGS_SUB16:
        case FLAGS_DEC16:
            jump_uop = uop_CMP_JO_DEST(ir, IREG_flags_op1_W, IREG_flags_op2_W);
            break;

        case FLAGS_SUB32:
        case FLAGS_DEC32:
            jump_uop = uop_CMP_JO_DEST(ir, IREG_flags_op1, IREG_flags_op2);
            break;

        case FLAGS_UNKNOWN:
        default:
            uop_CALL_FUNC_RESULT(ir, IREG_temp0, VF_SET);
            jump_uop = uop_CMP_IMM_JNZ_DEST(ir, IREG_temp0, 0);
            break;
    }
    uop_MOV_IMM(ir, IREG_pc, dest_addr);
    uop_JMP(ir, codegen_exit_rout);
    uop_set_jump_dest(ir, jump_uop);
    return 0;
}

static int
ropJB_common(codeblock_t *block, ir_data_t *ir, uint32_t dest_addr, uint32_t next_pc)
{
    int jump_uop;
    int do_unroll = (CF_SET() && codegen_can_unroll(block, ir, next_pc, dest_addr));

    switch (codegen_flags_changed ? cpu_state.flags_op : FLAGS_UNKNOWN) {
        case FLAGS_ZN8:
        case FLAGS_ZN16:
        case FLAGS_ZN32:
            /*Carry is always zero*/
            return 0;

        case FLAGS_SUB8:
            if (do_unroll)
                jump_uop = uop_CMP_JB_DEST(ir, IREG_flags_op1_B, IREG_flags_op2_B);
            else
                jump_uop = uop_CMP_JNB_DEST(ir, IREG_flags_op1_B, IREG_flags_op2_B);
            break;

        case FLAGS_SUB16:
            if (do_unroll)
                jump_uop = uop_CMP_JB_DEST(ir, IREG_flags_op1_W, IREG_flags_op2_W);
            else
                jump_uop = uop_CMP_JNB_DEST(ir, IREG_flags_op1_W, IREG_flags_op2_W);
            break;

        case FLAGS_SUB32:
            if (do_unroll)
                jump_uop = uop_CMP_JB_DEST(ir, IREG_flags_op1, IREG_flags_op2);
            else
                jump_uop = uop_CMP_JNB_DEST(ir, IREG_flags_op1, IREG_flags_op2);
            break;

        case FLAGS_UNKNOWN:
        default:
            uop_CALL_FUNC_RESULT(ir, IREG_temp0, CF_SET);
            if (do_unroll)
                jump_uop = uop_CMP_IMM_JNZ_DEST(ir, IREG_temp0, 0);
            else
                jump_uop = uop_CMP_IMM_JZ_DEST(ir, IREG_temp0, 0);
            break;
    }
    uop_MOV_IMM(ir, IREG_pc, do_unroll ? next_pc : dest_addr);
    uop_JMP(ir, codegen_exit_rout);
    uop_set_jump_dest(ir, jump_uop);
    return do_unroll ? 1 : 0;
}
static int
ropJNB_common(codeblock_t *block, ir_data_t *ir, uint32_t dest_addr, uint32_t next_pc)
{
    int jump_uop;
    int do_unroll = (!CF_SET() && codegen_can_unroll(block, ir, next_pc, dest_addr));

    switch (codegen_flags_changed ? cpu_state.flags_op : FLAGS_UNKNOWN) {
        case FLAGS_ZN8:
        case FLAGS_ZN16:
        case FLAGS_ZN32:
            /*Carry is always zero*/
            uop_MOV_IMM(ir, IREG_pc, dest_addr);
            uop_JMP(ir, codegen_exit_rout);
            return 0;

        case FLAGS_SUB8:
            if (do_unroll)
                jump_uop = uop_CMP_JNB_DEST(ir, IREG_flags_op1_B, IREG_flags_op2_B);
            else
                jump_uop = uop_CMP_JB_DEST(ir, IREG_flags_op1_B, IREG_flags_op2_B);
            break;

        case FLAGS_SUB16:
            if (do_unroll)
                jump_uop = uop_CMP_JNB_DEST(ir, IREG_flags_op1_W, IREG_flags_op2_W);
            else
                jump_uop = uop_CMP_JB_DEST(ir, IREG_flags_op1_W, IREG_flags_op2_W);
            break;

        case FLAGS_SUB32:
            if (do_unroll)
                jump_uop = uop_CMP_JNB_DEST(ir, IREG_flags_op1, IREG_flags_op2);
            else
                jump_uop = uop_CMP_JB_DEST(ir, IREG_flags_op1, IREG_flags_op2);
            break;

        case FLAGS_UNKNOWN:
        default:
            uop_CALL_FUNC_RESULT(ir, IREG_temp0, CF_SET);
            if (do_unroll)
                jump_uop = uop_CMP_IMM_JZ_DEST(ir, IREG_temp0, 0);
            else
                jump_uop = uop_CMP_IMM_JNZ_DEST(ir, IREG_temp0, 0);
            break;
    }
    uop_MOV_IMM(ir, IREG_pc, do_unroll ? next_pc : dest_addr);
    uop_JMP(ir, codegen_exit_rout);
    uop_set_jump_dest(ir, jump_uop);
    return do_unroll ? 1 : 0;
}

static int
ropJE_common(codeblock_t *block, ir_data_t *ir, uint32_t dest_addr, uint32_t next_pc)
{
    int jump_uop;

    if (ZF_SET() && codegen_can_unroll(block, ir, next_pc, dest_addr)) {
        if (!codegen_flags_changed || !flags_res_valid()) {
            uop_CALL_FUNC_RESULT(ir, IREG_temp0, ZF_SET);
            jump_uop = uop_CMP_IMM_JNZ_DEST(ir, IREG_temp0, 0);
        } else {
            jump_uop = uop_CMP_IMM_JZ_DEST(ir, IREG_flags_res, 0);
        }
        uop_MOV_IMM(ir, IREG_pc, next_pc);
        uop_JMP(ir, codegen_exit_rout);
        uop_set_jump_dest(ir, jump_uop);
        return 1;
    } else {
        if (!codegen_flags_changed || !flags_res_valid()) {
            uop_CALL_FUNC_RESULT(ir, IREG_temp0, ZF_SET);
            jump_uop = uop_CMP_IMM_JZ_DEST(ir, IREG_temp0, 0);
        } else {
            jump_uop = uop_CMP_IMM_JNZ_DEST(ir, IREG_flags_res, 0);
        }
        uop_MOV_IMM(ir, IREG_pc, dest_addr);
        uop_JMP(ir, codegen_exit_rout);
        uop_set_jump_dest(ir, jump_uop);
    }
    return 0;
}
int
ropJNE_common(codeblock_t *block, ir_data_t *ir, uint32_t dest_addr, uint32_t next_pc)
{
    int jump_uop;

    if (!ZF_SET() && codegen_can_unroll(block, ir, next_pc, dest_addr)) {
        if (!codegen_flags_changed || !flags_res_valid()) {
            uop_CALL_FUNC_RESULT(ir, IREG_temp0, ZF_SET);
            jump_uop = uop_CMP_IMM_JZ_DEST(ir, IREG_temp0, 0);
        } else {
            jump_uop = uop_CMP_IMM_JNZ_DEST(ir, IREG_flags_res, 0);
        }
        uop_MOV_IMM(ir, IREG_pc, next_pc);
        uop_JMP(ir, codegen_exit_rout);
        uop_set_jump_dest(ir, jump_uop);
        return 1;
    } else {
        if (!codegen_flags_changed || !flags_res_valid()) {
            uop_CALL_FUNC_RESULT(ir, IREG_temp0, ZF_SET);
            jump_uop = uop_CMP_IMM_JNZ_DEST(ir, IREG_temp0, 0);
        } else {
            jump_uop = uop_CMP_IMM_JZ_DEST(ir, IREG_flags_res, 0);
        }
        uop_MOV_IMM(ir, IREG_pc, dest_addr);
        uop_JMP(ir, codegen_exit_rout);
        uop_set_jump_dest(ir, jump_uop);
    }
    return 0;
}

static int
ropJBE_common(codeblock_t *block, ir_data_t *ir, uint32_t dest_addr, uint32_t next_pc)
{
    int jump_uop;
    int jump_uop2 = -1;
    int do_unroll = ((CF_SET() || ZF_SET()) && codegen_can_unroll(block, ir, next_pc, dest_addr));

    switch (codegen_flags_changed ? cpu_state.flags_op : FLAGS_UNKNOWN) {
        case FLAGS_ZN8:
        case FLAGS_ZN16:
        case FLAGS_ZN32:
            /*Carry is always zero, so test zero only*/
            if (do_unroll)
                jump_uop = uop_CMP_IMM_JZ_DEST(ir, IREG_flags_res, 0);
            else
                jump_uop = uop_CMP_IMM_JNZ_DEST(ir, IREG_flags_res, 0);
            break;

        case FLAGS_SUB8:
            if (do_unroll)
                jump_uop = uop_CMP_JBE_DEST(ir, IREG_flags_op1_B, IREG_flags_op2_B);
            else
                jump_uop = uop_CMP_JNBE_DEST(ir, IREG_flags_op1_B, IREG_flags_op2_B);
            break;
        case FLAGS_SUB16:
            if (do_unroll)
                jump_uop = uop_CMP_JBE_DEST(ir, IREG_flags_op1_W, IREG_flags_op2_W);
            else
                jump_uop = uop_CMP_JNBE_DEST(ir, IREG_flags_op1_W, IREG_flags_op2_W);
            break;
        case FLAGS_SUB32:
            if (do_unroll)
                jump_uop = uop_CMP_JBE_DEST(ir, IREG_flags_op1, IREG_flags_op2);
            else
                jump_uop = uop_CMP_JNBE_DEST(ir, IREG_flags_op1, IREG_flags_op2);
            break;

        case FLAGS_UNKNOWN:
        default:
            if (do_unroll) {
                uop_CALL_FUNC_RESULT(ir, IREG_temp0, CF_SET);
                jump_uop2 = uop_CMP_IMM_JNZ_DEST(ir, IREG_temp0, 0);
                uop_CALL_FUNC_RESULT(ir, IREG_temp0, ZF_SET);
                jump_uop = uop_CMP_IMM_JNZ_DEST(ir, IREG_temp0, 0);
            } else {
                uop_CALL_FUNC_RESULT(ir, IREG_temp0, CF_SET);
                jump_uop2 = uop_CMP_IMM_JNZ_DEST(ir, IREG_temp0, 0);
                uop_CALL_FUNC_RESULT(ir, IREG_temp0, ZF_SET);
                jump_uop = uop_CMP_IMM_JZ_DEST(ir, IREG_temp0, 0);
            }
            break;
    }
    if (do_unroll) {
        uop_MOV_IMM(ir, IREG_pc, next_pc);
        uop_JMP(ir, codegen_exit_rout);
        uop_set_jump_dest(ir, jump_uop);
        if (jump_uop2 != -1)
            uop_set_jump_dest(ir, jump_uop2);
        return 1;
    } else {
        if (jump_uop2 != -1)
            uop_set_jump_dest(ir, jump_uop2);
        uop_MOV_IMM(ir, IREG_pc, dest_addr);
        uop_JMP(ir, codegen_exit_rout);
        uop_set_jump_dest(ir, jump_uop);
        return 0;
    }
}
static int
ropJNBE_common(codeblock_t *block, ir_data_t *ir, uint32_t dest_addr, uint32_t next_pc)
{
    int jump_uop;
    int jump_uop2 = -1;
    int do_unroll = ((!CF_SET() && !ZF_SET()) && codegen_can_unroll(block, ir, next_pc, dest_addr));

    switch (codegen_flags_changed ? cpu_state.flags_op : FLAGS_UNKNOWN) {
        case FLAGS_ZN8:
        case FLAGS_ZN16:
        case FLAGS_ZN32:
            /*Carry is always zero, so test zero only*/
            if (do_unroll)
                jump_uop = uop_CMP_IMM_JNZ_DEST(ir, IREG_flags_res, 0);
            else
                jump_uop = uop_CMP_IMM_JZ_DEST(ir, IREG_flags_res, 0);
            break;

        case FLAGS_SUB8:
            if (do_unroll)
                jump_uop = uop_CMP_JNBE_DEST(ir, IREG_flags_op1_B, IREG_flags_op2_B);
            else
                jump_uop = uop_CMP_JBE_DEST(ir, IREG_flags_op1_B, IREG_flags_op2_B);
            break;
        case FLAGS_SUB16:
            if (do_unroll)
                jump_uop = uop_CMP_JNBE_DEST(ir, IREG_flags_op1_W, IREG_flags_op2_W);
            else
                jump_uop = uop_CMP_JBE_DEST(ir, IREG_flags_op1_W, IREG_flags_op2_W);
            break;
        case FLAGS_SUB32:
            if (do_unroll)
                jump_uop = uop_CMP_JNBE_DEST(ir, IREG_flags_op1, IREG_flags_op2);
            else
                jump_uop = uop_CMP_JBE_DEST(ir, IREG_flags_op1, IREG_flags_op2);
            break;

        case FLAGS_UNKNOWN:
        default:
            if (do_unroll) {
                uop_CALL_FUNC_RESULT(ir, IREG_temp0, CF_SET);
                jump_uop2 = uop_CMP_IMM_JNZ_DEST(ir, IREG_temp0, 0);
                uop_CALL_FUNC_RESULT(ir, IREG_temp0, ZF_SET);
                jump_uop = uop_CMP_IMM_JZ_DEST(ir, IREG_temp0, 0);
            } else {
                uop_CALL_FUNC_RESULT(ir, IREG_temp0, CF_SET);
                jump_uop = uop_CMP_IMM_JNZ_DEST(ir, IREG_temp0, 0);
                uop_CALL_FUNC_RESULT(ir, IREG_temp0, ZF_SET);
                jump_uop2 = uop_CMP_IMM_JNZ_DEST(ir, IREG_temp0, 0);
            }
            break;
    }
    if (do_unroll) {
        if (jump_uop2 != -1)
            uop_set_jump_dest(ir, jump_uop2);
        uop_MOV_IMM(ir, IREG_pc, next_pc);
        uop_JMP(ir, codegen_exit_rout);
        uop_set_jump_dest(ir, jump_uop);
        return 1;
    } else {
        uop_MOV_IMM(ir, IREG_pc, dest_addr);
        uop_JMP(ir, codegen_exit_rout);
        uop_set_jump_dest(ir, jump_uop);
        if (jump_uop2 != -1)
            uop_set_jump_dest(ir, jump_uop2);
        return 0;
    }
}

static int
ropJS_common(codeblock_t *block, ir_data_t *ir, uint32_t dest_addr, uint32_t next_pc)
{
    int jump_uop;
    int do_unroll = (NF_SET() && codegen_can_unroll(block, ir, next_pc, dest_addr));

    switch (codegen_flags_changed ? cpu_state.flags_op : FLAGS_UNKNOWN) {
        case FLAGS_ZN8:
        case FLAGS_ADD8:
        case FLAGS_SUB8:
        case FLAGS_SHL8:
        case FLAGS_SHR8:
        case FLAGS_SAR8:
        case FLAGS_INC8:
        case FLAGS_DEC8:
            if (do_unroll)
                jump_uop = uop_TEST_JS_DEST(ir, IREG_flags_res_B);
            else
                jump_uop = uop_TEST_JNS_DEST(ir, IREG_flags_res_B);
            break;

        case FLAGS_ZN16:
        case FLAGS_ADD16:
        case FLAGS_SUB16:
        case FLAGS_SHL16:
        case FLAGS_SHR16:
        case FLAGS_SAR16:
        case FLAGS_INC16:
        case FLAGS_DEC16:
            if (do_unroll)
                jump_uop = uop_TEST_JS_DEST(ir, IREG_flags_res_W);
            else
                jump_uop = uop_TEST_JNS_DEST(ir, IREG_flags_res_W);
            break;

        case FLAGS_ZN32:
        case FLAGS_ADD32:
        case FLAGS_SUB32:
        case FLAGS_SHL32:
        case FLAGS_SHR32:
        case FLAGS_SAR32:
        case FLAGS_INC32:
        case FLAGS_DEC32:
            if (do_unroll)
                jump_uop = uop_TEST_JS_DEST(ir, IREG_flags_res);
            else
                jump_uop = uop_TEST_JNS_DEST(ir, IREG_flags_res);
            break;

        case FLAGS_UNKNOWN:
        default:
            uop_CALL_FUNC_RESULT(ir, IREG_temp0, NF_SET);
            if (do_unroll)
                jump_uop = uop_CMP_IMM_JNZ_DEST(ir, IREG_temp0, 0);
            else
                jump_uop = uop_CMP_IMM_JZ_DEST(ir, IREG_temp0, 0);
            break;
    }
    uop_MOV_IMM(ir, IREG_pc, do_unroll ? next_pc : dest_addr);
    uop_JMP(ir, codegen_exit_rout);
    uop_set_jump_dest(ir, jump_uop);
    return do_unroll ? 1 : 0;
}
static int
ropJNS_common(codeblock_t *block, ir_data_t *ir, uint32_t dest_addr, uint32_t next_pc)
{
    int jump_uop;
    int do_unroll = (!NF_SET() && codegen_can_unroll(block, ir, next_pc, dest_addr));

    switch (codegen_flags_changed ? cpu_state.flags_op : FLAGS_UNKNOWN) {
        case FLAGS_ZN8:
        case FLAGS_ADD8:
        case FLAGS_SUB8:
        case FLAGS_SHL8:
        case FLAGS_SHR8:
        case FLAGS_SAR8:
        case FLAGS_INC8:
        case FLAGS_DEC8:
            if (do_unroll)
                jump_uop = uop_TEST_JNS_DEST(ir, IREG_flags_res_B);
            else
                jump_uop = uop_TEST_JS_DEST(ir, IREG_flags_res_B);
            break;

        case FLAGS_ZN16:
        case FLAGS_ADD16:
        case FLAGS_SUB16:
        case FLAGS_SHL16:
        case FLAGS_SHR16:
        case FLAGS_SAR16:
        case FLAGS_INC16:
        case FLAGS_DEC16:
            if (do_unroll)
                jump_uop = uop_TEST_JNS_DEST(ir, IREG_flags_res_W);
            else
                jump_uop = uop_TEST_JS_DEST(ir, IREG_flags_res_W);
            break;

        case FLAGS_ZN32:
        case FLAGS_ADD32:
        case FLAGS_SUB32:
        case FLAGS_SHL32:
        case FLAGS_SHR32:
        case FLAGS_SAR32:
        case FLAGS_INC32:
        case FLAGS_DEC32:
            if (do_unroll)
                jump_uop = uop_TEST_JNS_DEST(ir, IREG_flags_res);
            else
                jump_uop = uop_TEST_JS_DEST(ir, IREG_flags_res);
            break;

        case FLAGS_UNKNOWN:
        default:
            uop_CALL_FUNC_RESULT(ir, IREG_temp0, NF_SET);
            if (do_unroll)
                jump_uop = uop_CMP_IMM_JZ_DEST(ir, IREG_temp0, 0);
            else
                jump_uop = uop_CMP_IMM_JNZ_DEST(ir, IREG_temp0, 0);
            break;
    }
    uop_MOV_IMM(ir, IREG_pc, do_unroll ? next_pc : dest_addr);
    uop_JMP(ir, codegen_exit_rout);
    uop_set_jump_dest(ir, jump_uop);
    return do_unroll ? 1 : 0;
}

static int
ropJP_common(UNUSED(codeblock_t *block), ir_data_t *ir, uint32_t dest_addr, UNUSED(uint32_t next_pc))
{
    int jump_uop;

    uop_CALL_FUNC_RESULT(ir, IREG_temp0, PF_SET);
    jump_uop = uop_CMP_IMM_JZ_DEST(ir, IREG_temp0, 0);
    uop_MOV_IMM(ir, IREG_pc, dest_addr);
    uop_JMP(ir, codegen_exit_rout);
    uop_set_jump_dest(ir, jump_uop);
    return 0;
}
static int
ropJNP_common(UNUSED(codeblock_t *block), ir_data_t *ir, uint32_t dest_addr, UNUSED(uint32_t next_pc))
{
    int jump_uop;

    uop_CALL_FUNC_RESULT(ir, IREG_temp0, PF_SET);
    jump_uop = uop_CMP_IMM_JNZ_DEST(ir, IREG_temp0, 0);
    uop_MOV_IMM(ir, IREG_pc, dest_addr);
    uop_JMP(ir, codegen_exit_rout);
    uop_set_jump_dest(ir, jump_uop);
    return 0;
}

static int
ropJL_common(codeblock_t *block, ir_data_t *ir, uint32_t dest_addr, uint32_t next_pc)
{
    int jump_uop;
    int do_unroll = ((NF_SET() ? 1 : 0) != (VF_SET() ? 1 : 0) && codegen_can_unroll(block, ir, next_pc, dest_addr));

    switch (codegen_flags_changed ? cpu_state.flags_op : FLAGS_UNKNOWN) {
        case FLAGS_ZN8:
            /*V flag is always clear. Condition is true if N is set*/
            if (do_unroll)
                jump_uop = uop_TEST_JS_DEST(ir, IREG_flags_res_B);
            else
                jump_uop = uop_TEST_JNS_DEST(ir, IREG_flags_res_B);
            break;
        case FLAGS_ZN16:
            if (do_unroll)
                jump_uop = uop_TEST_JS_DEST(ir, IREG_flags_res_W);
            else
                jump_uop = uop_TEST_JNS_DEST(ir, IREG_flags_res_W);
            break;
        case FLAGS_ZN32:
            if (do_unroll)
                jump_uop = uop_TEST_JS_DEST(ir, IREG_flags_res);
            else
                jump_uop = uop_TEST_JNS_DEST(ir, IREG_flags_res);
            break;

        case FLAGS_SUB8:
        case FLAGS_DEC8:
            if (do_unroll)
                jump_uop = uop_CMP_JL_DEST(ir, IREG_flags_op1_B, IREG_flags_op2_B);
            else
                jump_uop = uop_CMP_JNL_DEST(ir, IREG_flags_op1_B, IREG_flags_op2_B);
            break;
        case FLAGS_SUB16:
        case FLAGS_DEC16:
            if (do_unroll)
                jump_uop = uop_CMP_JL_DEST(ir, IREG_flags_op1_W, IREG_flags_op2_W);
            else
                jump_uop = uop_CMP_JNL_DEST(ir, IREG_flags_op1_W, IREG_flags_op2_W);
            break;
        case FLAGS_SUB32:
        case FLAGS_DEC32:
            if (do_unroll)
                jump_uop = uop_CMP_JL_DEST(ir, IREG_flags_op1, IREG_flags_op2);
            else
                jump_uop = uop_CMP_JNL_DEST(ir, IREG_flags_op1, IREG_flags_op2);
            break;

        case FLAGS_UNKNOWN:
        default:
            uop_CALL_FUNC_RESULT(ir, IREG_temp0, NF_SET_01);
            uop_CALL_FUNC_RESULT(ir, IREG_temp1, VF_SET_01);
            if (do_unroll)
                jump_uop = uop_CMP_JNZ_DEST(ir, IREG_temp0, IREG_temp1);
            else
                jump_uop = uop_CMP_JZ_DEST(ir, IREG_temp0, IREG_temp1);
            break;
    }
    if (do_unroll)
        uop_MOV_IMM(ir, IREG_pc, next_pc);
    else
        uop_MOV_IMM(ir, IREG_pc, dest_addr);
    uop_JMP(ir, codegen_exit_rout);
    uop_set_jump_dest(ir, jump_uop);
    return do_unroll ? 1 : 0;
}
static int
ropJNL_common(codeblock_t *block, ir_data_t *ir, uint32_t dest_addr, uint32_t next_pc)
{
    int jump_uop;
    int do_unroll = ((NF_SET() ? 1 : 0) == (VF_SET() ? 1 : 0) && codegen_can_unroll(block, ir, next_pc, dest_addr));

    switch (codegen_flags_changed ? cpu_state.flags_op : FLAGS_UNKNOWN) {
        case FLAGS_ZN8:
            /*V flag is always clear. Condition is true if N is set*/
            if (do_unroll)
                jump_uop = uop_TEST_JNS_DEST(ir, IREG_flags_res_B);
            else
                jump_uop = uop_TEST_JS_DEST(ir, IREG_flags_res_B);
            break;
        case FLAGS_ZN16:
            if (do_unroll)
                jump_uop = uop_TEST_JNS_DEST(ir, IREG_flags_res_W);
            else
                jump_uop = uop_TEST_JS_DEST(ir, IREG_flags_res_W);
            break;
        case FLAGS_ZN32:
            if (do_unroll)
                jump_uop = uop_TEST_JNS_DEST(ir, IREG_flags_res);
            else
                jump_uop = uop_TEST_JS_DEST(ir, IREG_flags_res);
            break;

        case FLAGS_SUB8:
        case FLAGS_DEC8:
            if (do_unroll)
                jump_uop = uop_CMP_JNL_DEST(ir, IREG_flags_op1_B, IREG_flags_op2_B);
            else
                jump_uop = uop_CMP_JL_DEST(ir, IREG_flags_op1_B, IREG_flags_op2_B);
            break;
        case FLAGS_SUB16:
        case FLAGS_DEC16:
            if (do_unroll)
                jump_uop = uop_CMP_JNL_DEST(ir, IREG_flags_op1_W, IREG_flags_op2_W);
            else
                jump_uop = uop_CMP_JL_DEST(ir, IREG_flags_op1_W, IREG_flags_op2_W);
            break;
        case FLAGS_SUB32:
        case FLAGS_DEC32:
            if (do_unroll)
                jump_uop = uop_CMP_JNL_DEST(ir, IREG_flags_op1, IREG_flags_op2);
            else
                jump_uop = uop_CMP_JL_DEST(ir, IREG_flags_op1, IREG_flags_op2);
            break;

        case FLAGS_UNKNOWN:
        default:
            uop_CALL_FUNC_RESULT(ir, IREG_temp0, NF_SET_01);
            uop_CALL_FUNC_RESULT(ir, IREG_temp1, VF_SET_01);
            if (do_unroll)
                jump_uop = uop_CMP_JZ_DEST(ir, IREG_temp0, IREG_temp1);
            else
                jump_uop = uop_CMP_JNZ_DEST(ir, IREG_temp0, IREG_temp1);
            break;
    }
    if (do_unroll)
        uop_MOV_IMM(ir, IREG_pc, next_pc);
    else
        uop_MOV_IMM(ir, IREG_pc, dest_addr);
    uop_JMP(ir, codegen_exit_rout);
    uop_set_jump_dest(ir, jump_uop);
    return do_unroll ? 1 : 0;
}

static int
ropJLE_common(codeblock_t *block, ir_data_t *ir, uint32_t dest_addr, uint32_t next_pc)
{
    int jump_uop;
    int jump_uop2 = -1;
    int do_unroll = (((NF_SET() ? 1 : 0) != (VF_SET() ? 1 : 0) || ZF_SET()) && codegen_can_unroll(block, ir, next_pc, dest_addr));

    switch (codegen_flags_changed ? cpu_state.flags_op : FLAGS_UNKNOWN) {
        case FLAGS_SUB8:
        case FLAGS_DEC8:
            if (do_unroll)
                jump_uop = uop_CMP_JLE_DEST(ir, IREG_flags_op1_B, IREG_flags_op2_B);
            else
                jump_uop = uop_CMP_JNLE_DEST(ir, IREG_flags_op1_B, IREG_flags_op2_B);
            break;
        case FLAGS_SUB16:
        case FLAGS_DEC16:
            if (do_unroll)
                jump_uop = uop_CMP_JLE_DEST(ir, IREG_flags_op1_W, IREG_flags_op2_W);
            else
                jump_uop = uop_CMP_JNLE_DEST(ir, IREG_flags_op1_W, IREG_flags_op2_W);
            break;
        case FLAGS_SUB32:
        case FLAGS_DEC32:
            if (do_unroll)
                jump_uop = uop_CMP_JLE_DEST(ir, IREG_flags_op1, IREG_flags_op2);
            else
                jump_uop = uop_CMP_JNLE_DEST(ir, IREG_flags_op1, IREG_flags_op2);
            break;

        case FLAGS_UNKNOWN:
        default:
            if (do_unroll) {
                uop_CALL_FUNC_RESULT(ir, IREG_temp0, ZF_SET);
                jump_uop2 = uop_CMP_IMM_JNZ_DEST(ir, IREG_temp0, 0);
                uop_CALL_FUNC_RESULT(ir, IREG_temp0, NF_SET_01);
                uop_CALL_FUNC_RESULT(ir, IREG_temp1, VF_SET_01);
                jump_uop = uop_CMP_JNZ_DEST(ir, IREG_temp0, IREG_temp1);
            } else {
                uop_CALL_FUNC_RESULT(ir, IREG_temp0, ZF_SET);
                jump_uop2 = uop_CMP_IMM_JNZ_DEST(ir, IREG_temp0, 0);
                uop_CALL_FUNC_RESULT(ir, IREG_temp0, NF_SET_01);
                uop_CALL_FUNC_RESULT(ir, IREG_temp1, VF_SET_01);
                jump_uop = uop_CMP_JZ_DEST(ir, IREG_temp0, IREG_temp1);
            }
            break;
    }
    if (do_unroll) {
        uop_MOV_IMM(ir, IREG_pc, next_pc);
        uop_JMP(ir, codegen_exit_rout);
        uop_set_jump_dest(ir, jump_uop);
        if (jump_uop2 != -1)
            uop_set_jump_dest(ir, jump_uop2);
        return 1;
    } else {
        if (jump_uop2 != -1)
            uop_set_jump_dest(ir, jump_uop2);
        uop_MOV_IMM(ir, IREG_pc, dest_addr);
        uop_JMP(ir, codegen_exit_rout);
        uop_set_jump_dest(ir, jump_uop);
        return 0;
    }
}
static int
ropJNLE_common(codeblock_t *block, ir_data_t *ir, uint32_t dest_addr, uint32_t next_pc)
{
    int jump_uop;
    int jump_uop2 = -1;
    int do_unroll = ((NF_SET() ? 1 : 0) == (VF_SET() ? 1 : 0) && !ZF_SET() && codegen_can_unroll(block, ir, next_pc, dest_addr));

    switch (codegen_flags_changed ? cpu_state.flags_op : FLAGS_UNKNOWN) {
        case FLAGS_SUB8:
        case FLAGS_DEC8:
            if (do_unroll)
                jump_uop = uop_CMP_JNLE_DEST(ir, IREG_flags_op1_B, IREG_flags_op2_B);
            else
                jump_uop = uop_CMP_JLE_DEST(ir, IREG_flags_op1_B, IREG_flags_op2_B);
            break;
        case FLAGS_SUB16:
        case FLAGS_DEC16:
            if (do_unroll)
                jump_uop = uop_CMP_JNLE_DEST(ir, IREG_flags_op1_W, IREG_flags_op2_W);
            else
                jump_uop = uop_CMP_JLE_DEST(ir, IREG_flags_op1_W, IREG_flags_op2_W);
            break;
        case FLAGS_SUB32:
        case FLAGS_DEC32:
            if (do_unroll)
                jump_uop = uop_CMP_JNLE_DEST(ir, IREG_flags_op1, IREG_flags_op2);
            else
                jump_uop = uop_CMP_JLE_DEST(ir, IREG_flags_op1, IREG_flags_op2);
            break;

        case FLAGS_UNKNOWN:
        default:
            if (do_unroll) {
                uop_CALL_FUNC_RESULT(ir, IREG_temp0, ZF_SET);
                jump_uop2 = uop_CMP_IMM_JNZ_DEST(ir, IREG_temp0, 0);
                uop_CALL_FUNC_RESULT(ir, IREG_temp0, NF_SET_01);
                uop_CALL_FUNC_RESULT(ir, IREG_temp1, VF_SET_01);
                jump_uop = uop_CMP_JZ_DEST(ir, IREG_temp0, IREG_temp1);
            } else {
                uop_CALL_FUNC_RESULT(ir, IREG_temp0, ZF_SET);
                jump_uop2 = uop_CMP_IMM_JNZ_DEST(ir, IREG_temp0, 0);
                uop_CALL_FUNC_RESULT(ir, IREG_temp0, NF_SET_01);
                uop_CALL_FUNC_RESULT(ir, IREG_temp1, VF_SET_01);
                jump_uop = uop_CMP_JNZ_DEST(ir, IREG_temp0, IREG_temp1);
            }
            break;
    }
    if (do_unroll) {
        if (jump_uop2 != -1)
            uop_set_jump_dest(ir, jump_uop2);
        uop_MOV_IMM(ir, IREG_pc, next_pc);
        uop_JMP(ir, codegen_exit_rout);
        uop_set_jump_dest(ir, jump_uop);
        return 1;
    } else {
        uop_MOV_IMM(ir, IREG_pc, dest_addr);
        uop_JMP(ir, codegen_exit_rout);
        uop_set_jump_dest(ir, jump_uop);
        if (jump_uop2 != -1)
            uop_set_jump_dest(ir, jump_uop2);
        return 0;
    }
}

#define ropJ(cond)                                                      \
    uint32_t ropJ##cond##_8(codeblock_t *block,                         \
                            ir_data_t *ir,                              \
                            UNUSED(uint8_t opcode),                     \
                            UNUSED(uint32_t fetchdat),                  \
                            uint32_t op_32,                             \
                            uint32_t op_pc)                             \
    {                                                                   \
        uint32_t offset    = (int32_t) (int8_t) fastreadb(cs + op_pc);  \
        uint32_t dest_addr = op_pc + 1 + offset;                        \
        int      ret;                                                   \
                                                                        \
        if (!(op_32 & 0x100))                                           \
            dest_addr &= 0xffff;                                        \
        ret = ropJ##cond##_common(block, ir, dest_addr, op_pc + 1);     \
                                                                        \
        codegen_mark_code_present(block, cs + op_pc, 1);                \
        return ret ? dest_addr : (op_pc + 1);                           \
    }                                                                   \
    uint32_t ropJ##cond##_16(codeblock_t *block,                        \
                             ir_data_t *ir,                             \
                             UNUSED(uint8_t opcode),                    \
                             UNUSED(uint32_t fetchdat),                 \
                             UNUSED(uint32_t op_32),                    \
                             uint32_t op_pc)                            \
    {                                                                   \
        uint32_t offset    = (int32_t) (int16_t) fastreadw(cs + op_pc); \
        uint32_t dest_addr = (op_pc + 2 + offset) & 0xffff;             \
        int      ret;                                                   \
                                                                        \
        ret = ropJ##cond##_common(block, ir, dest_addr, op_pc + 2);     \
                                                                        \
        codegen_mark_code_present(block, cs + op_pc, 2);                \
        return ret ? dest_addr : (op_pc + 2);                           \
    }                                                                   \
    uint32_t ropJ##cond##_32(codeblock_t *block,                        \
                             ir_data_t *ir,                             \
                             UNUSED(uint8_t opcode),                    \
                             UNUSED(uint32_t fetchdat),                 \
                             UNUSED(uint32_t op_32),                    \
                             uint32_t op_pc)                            \
    {                                                                   \
        uint32_t offset    = fastreadl(cs + op_pc);                     \
        uint32_t dest_addr = op_pc + 4 + offset;                        \
        int      ret;                                                   \
                                                                        \
        ret = ropJ##cond##_common(block, ir, dest_addr, op_pc + 4);     \
                                                                        \
        codegen_mark_code_present(block, cs + op_pc, 4);                \
        return ret ? dest_addr : (op_pc + 4);                           \
    }

// clang-format off
ropJ(O)
ropJ(NO)
ropJ(B)
ropJ(NB)
ropJ(E)
ropJ(NE)
ropJ(BE)
ropJ(NBE)
ropJ(S)
ropJ(NS)
ropJ(P)
ropJ(NP)
ropJ(L)
ropJ(NL)
ropJ(LE)
ropJ(NLE)
// clang-format on

uint32_t
ropJCXZ(codeblock_t *block, ir_data_t *ir, UNUSED(uint8_t opcode), UNUSED(uint32_t fetchdat), uint32_t op_32, uint32_t op_pc)
{
    uint32_t offset    = (int32_t) (int8_t) fastreadb(cs + op_pc);
    uint32_t dest_addr = op_pc + 1 + offset;
    int      jump_uop;

    if (!(op_32 & 0x100))
        dest_addr &= 0xffff;

    if (op_32 & 0x200)
        jump_uop = uop_CMP_IMM_JNZ_DEST(ir, IREG_ECX, 0);
    else
        jump_uop = uop_CMP_IMM_JNZ_DEST(ir, IREG_CX, 0);
    uop_MOV_IMM(ir, IREG_pc, dest_addr);
    uop_JMP(ir, codegen_exit_rout);
    uop_set_jump_dest(ir, jump_uop);

    codegen_mark_code_present(block, cs + op_pc, 1);
    return op_pc + 1;
}

uint32_t
ropLOOP(codeblock_t *block, ir_data_t *ir, UNUSED(uint8_t opcode), UNUSED(uint32_t fetchdat), uint32_t op_32, uint32_t op_pc)
{
    uint32_t offset    = (int32_t) (int8_t) fastreadb(cs + op_pc);
    uint32_t dest_addr = op_pc + 1 + offset;
    uint32_t ret_addr;
    int      jump_uop;

    if (!(op_32 & 0x100))
        dest_addr &= 0xffff;

    if (((op_32 & 0x200) ? ECX : CX) != 1 && codegen_can_unroll(block, ir, op_pc + 1, dest_addr)) {
        if (op_32 & 0x200) {
            uop_SUB_IMM(ir, IREG_ECX, IREG_ECX, 1);
            jump_uop = uop_CMP_IMM_JNZ_DEST(ir, IREG_ECX, 0);
        } else {
            uop_SUB_IMM(ir, IREG_CX, IREG_CX, 1);
            jump_uop = uop_CMP_IMM_JNZ_DEST(ir, IREG_CX, 0);
        }
        uop_MOV_IMM(ir, IREG_pc, op_pc + 1);
        ret_addr = dest_addr;
        CPU_BLOCK_END();
    } else {
        if (op_32 & 0x200) {
            uop_SUB_IMM(ir, IREG_ECX, IREG_ECX, 1);
            jump_uop = uop_CMP_IMM_JZ_DEST(ir, IREG_ECX, 0);
        } else {
            uop_SUB_IMM(ir, IREG_CX, IREG_CX, 1);
            jump_uop = uop_CMP_IMM_JZ_DEST(ir, IREG_CX, 0);
        }
        uop_MOV_IMM(ir, IREG_pc, dest_addr);
        ret_addr = op_pc + 1;
    }
    uop_JMP(ir, codegen_exit_rout);
    uop_set_jump_dest(ir, jump_uop);

    codegen_mark_code_present(block, cs + op_pc, 1);
    return ret_addr;
}

uint32_t
ropLOOPE(codeblock_t *block, ir_data_t *ir, UNUSED(uint8_t opcode), UNUSED(uint32_t fetchdat), uint32_t op_32, uint32_t op_pc)
{
    uint32_t offset    = (int32_t) (int8_t) fastreadb(cs + op_pc);
    uint32_t dest_addr = op_pc + 1 + offset;
    int      jump_uop;
    int      jump_uop2;

    if (!(op_32 & 0x100))
        dest_addr &= 0xffff;

    if (op_32 & 0x200) {
        uop_SUB_IMM(ir, IREG_ECX, IREG_ECX, 1);
        jump_uop = uop_CMP_IMM_JZ_DEST(ir, IREG_ECX, 0);
    } else {
        uop_SUB_IMM(ir, IREG_CX, IREG_CX, 1);
        jump_uop = uop_CMP_IMM_JZ_DEST(ir, IREG_CX, 0);
    }
    if (!codegen_flags_changed || !flags_res_valid()) {
        uop_CALL_FUNC_RESULT(ir, IREG_temp0, ZF_SET);
        jump_uop2 = uop_CMP_IMM_JZ_DEST(ir, IREG_temp0, 0);
    } else {
        jump_uop2 = uop_CMP_IMM_JNZ_DEST(ir, IREG_flags_res, 0);
    }
    uop_MOV_IMM(ir, IREG_pc, dest_addr);
    uop_JMP(ir, codegen_exit_rout);
    uop_NOP_BARRIER(ir);
    uop_set_jump_dest(ir, jump_uop);
    uop_set_jump_dest(ir, jump_uop2);

    codegen_mark_code_present(block, cs + op_pc, 1);
    return op_pc + 1;
}
uint32_t
ropLOOPNE(codeblock_t *block, ir_data_t *ir, UNUSED(uint8_t opcode), UNUSED(uint32_t fetchdat), uint32_t op_32, uint32_t op_pc)
{
    uint32_t offset    = (int32_t) (int8_t) fastreadb(cs + op_pc);
    uint32_t dest_addr = op_pc + 1 + offset;
    int      jump_uop;
    int      jump_uop2;

    if (!(op_32 & 0x100))
        dest_addr &= 0xffff;

    if (op_32 & 0x200) {
        uop_SUB_IMM(ir, IREG_ECX, IREG_ECX, 1);
        jump_uop = uop_CMP_IMM_JZ_DEST(ir, IREG_ECX, 0);
    } else {
        uop_SUB_IMM(ir, IREG_CX, IREG_CX, 1);
        jump_uop = uop_CMP_IMM_JZ_DEST(ir, IREG_CX, 0);
    }
    if (!codegen_flags_changed || !flags_res_valid()) {
        uop_CALL_FUNC_RESULT(ir, IREG_temp0, ZF_SET);
        jump_uop2 = uop_CMP_IMM_JNZ_DEST(ir, IREG_temp0, 0);
    } else {
        jump_uop2 = uop_CMP_IMM_JZ_DEST(ir, IREG_flags_res, 0);
    }
    uop_MOV_IMM(ir, IREG_pc, dest_addr);
    uop_JMP(ir, codegen_exit_rout);
    uop_NOP_BARRIER(ir);
    uop_set_jump_dest(ir, jump_uop);
    uop_set_jump_dest(ir, jump_uop2);

    codegen_mark_code_present(block, cs + op_pc, 1);
    return op_pc + 1;
}
